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ORCIDComputational & Mathematical Organization Theory, Volume 14
Volume 14, Number 1, March 2008
- Jeffrey B. Vancouver, Charles A. Scherbaum
:
Do we self-regulate actions or perceptions? A test of two computational models. 1-22 - Andreas Flache, Michael Mäs:
How to get the timing right. A computational model of the effects of the timing of contacts on team cohesion in demographically diverse teams. 23-51 - Timothy N. Carroll:
Mark E. Nissen: Harnessing Knowledge Dynamics: Principled Organizational Knowing & Learning. 52-55
Volume 14, Number 2, June 2008
- Ning Nan, Erik W. Johnston, Judith S. Olson:
Unintended consequences of collocation: using agent-based modeling to untangle effects of communication delay and in-group favor. 57-83 - Brian W. Kulik, Timothy Baker:
Putting the organization back into computational organization theory: a complex Perrowian model of organizational action. 84-119 - Barry G. Silverman, Gnana Bharathy, Benjamin Nye, Tony Smith:
Modeling factions for 'effects based operations', part II: behavioral game theory. 120-155 - Riccardo Boero, Marco Castellani, Flaminio Squazzoni:
Individual behavior and macro social properties. An agent-based model. 156-174
Volume 14, Number 3, September 2008
- Zhiang (John) Lin, James A. Kitts, Haibin Yang, J. Richard Harrison:
Elucidating strategic network dynamics through computational modeling. 175-208 - Susan M. Mniszewski, Sara Y. Del Valle, Phillip D. Stroud, Jane M. Riese, Stephen J. Sydoriak:
Pandemic simulation of antivirals + school closures: buying time until strain-specific vaccine is available. 209-221 - Simon Rodan:
Organizational learning: effects of (network) structure and (individual) strategy. 222-247 - Jana Diesner, Kathleen M. Carley:
Conditional random fields for entity extraction and ontological text coding. 248-262
Volume 14, Number 4, December 2008
- Jos Timmermans, Hans de Haan:
Special issue on computational and mathematical approaches to societal transitions. 263-265 - Flaminio Squazzoni:
A (computational) social science perspective on societal transitions. 266-282 - Michel Schilperoord, Jan Rotmans, Noam Bergman:
Modelling societal transitions with agent transformation. 283-301 - Hans de Haan:
The dynamics of functioning investigating societal transitions with partial differential equations. 302-319 - Gönenç Yücel, Catherine Miluska Chiong Meza:
Studying transition dynamics via focusing on underlying feedback interactions. 320-349 - Jos Timmermans:
Punctuated equilibrium in a non-linear system of action. 350-375 - Gérard Weisbuch, Vincent Buskens, Luat Vuong:
Heterogeneity and increasing returns may drive socio-economic transitions. 376-390 - Jos Timmermans, Hans de Haan, Flaminio Squazzoni:
Computational and mathematical approaches to societal transitions. 391-414
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